DE2841491A1 - BRIDGE CIRCUIT WITH STRAIN GAUGE - Google Patents

Description

E.A.Romo-2

-5- 28AH91

Bridge circuit with strain gauges

Priority is claimed in United States Application No. 837,452, filed September 28, 1977.

The invention relates to a bridge circuit in which an element is included, the resistance of which depends on various variables depends, it relates in particular to a bridge circuit with strain gauges.

Bridge circuits with strain gauges, as previously known all suffer from the inaccuracies from the asymmetry the strain gauges, distortion of the gain and other defects, which lead to non-linear signals.

The invention is therefore based on the object of a bridge circuit indicate with strain gauges that do not adhere to the said disadvantages. The object is given by in claim 1 Invention solved.

The invention and its advantages are explained in more detail below with reference to the figure, which shows a diagram of the circuit.

The reference numeral 10 in the figure represents a voltage source, which is connected to the connection points 11 and 12 via the diode 13 and the resistor 14. The diode 13 is of the positive Pole of voltage source 10 towards connection point 11 conductive polarity.

The negative pole of the voltage source 10 is across the resistor at the connection point 12. The voltmeter 15, calibrated in differential pressure, is parallel to the resistor 14. The connection line between voltage source 10 and diode 13 can possibly be very long be. The same applies to the line from resistor 14 to connection point 12.

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The connection point 12 has a ground connection. The initial resistance. 16 lies between the connection point 17 and the connection point 12. The connection points 18 to 51 are also included in the figure.

The circuit part lying in the dashed frame 52 is a voltage regulator of the conventional design. 53 and are transistors with the collector 55, the emitter 56 and the base 57 and the collector 58, the emitter 59 and the Base 60. The base 57 lies at the connection point 18. The reference numeral 61 is one between the connection points 18 and 20 horizontal zener diode. The resistor 62 is located between the connection point 2 and the emitter 56. The collector 55 is connected to the connection point 21. The connection points 21, 22 and 23 are connected to one another. Between the ground and the connection point 23 is the zener diode. The resistor 64 is between the connection point 18 and the connection point 19, the latter is grounded. The base 60 is at the connection point 22, the resistor 65 between the emitter 59 and the connection point 19. The collector 58 is with the connection point 18 in connection.

The connection point 20 is with the connection point 11 in FIG Link. The voltage regulator 52 acts as a potential source for the differential amplifier 66, which is connected to the connection point of the voltage regulator 52 is connected.

Further differential amplifiers have the reference numerals 67, 68 and 69. Shown at 70 is a strain gauge bridge wherein 71 and 72 are the strain gauges. 73 and 74 are resistors. The potentiometer 75 has the winding 76 and the sliding contact 77. The tapping point of the Sliding contact 77 is "one corner of the bridge 70, the other corners are from the connection points 24, 27 and 28 educated. Resistor 78 is parallel to winding 76

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switched. 79 and 80 represent auxiliary resistors. The conventional Differential pressure transducer 81 places the strain gauges 71 and 72 under Voltage so that the voltmeter 15 is calibrated for differential pressure can be. The encoder 81 can correspond to the conventional design. The position of the sliding contact 77 is used for the zero position. The position of the sliding contact 82 of the variable resistor 83 is used to set the measuring range.

The resistor 84, which is used to compensate for the temperature, lies between the connections 85 and 86, which in turn are connected to the connection points 32 and 33, respectively. Depending on the algebraic magnitude of the temperature correction required, the resistor is connected as shown or it is between terminals 87 and 88 _; which are connected to the connection points 34 and 35. The resistor 89 lies between the connection points 32 and 33, the resistor 90 between the connection points 13 and 35. Linearity through feedback is achieved at one of the connection points 33 or 36. As shown, the feedback takes place via the resistor 91 and the switch between the connections 93 and 94 to the connection point 36.

In its other position, the switch connects the connection to the connection 95. The resistor 91 is at the connection point öij the connection points 27 and 30 are connected to one another. The resistor 96 lies between the connection points 30 and 34. The inverting input of the amplifier 67 is at connection point 30. Resistor 97 is between connection points 31 and 32, resistor 98 between the connection points 23 and 31. The non-inverting input of the amplifier 67 is connected to the connection point 31.

Regardless of whether there is a temperature change or not, the amplifier 67 keeps the current at the output and from the connection point 27 to the connection point 30 constant. The reinforcement through the amplifier 67 can be between 1 * 10 to

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be approximately 5 x 10 or more. This means that the connection point 30 is always at the potential of the connection point 31.

Even if the strain gauges 71 and 72 are asymmetrical, the constant current of the amplifier 67 holds the output the same exactly one. The circuit closed by the sliding contact 77 and connection point 28 is for the In most cases a lock-out circuit of the usual type, which also improves the accuracy. Between the sliding contact 77 and the connection point 37 is the resistor 99, between the connection points 28 and 37 the capacitor 100. The Connection points 28 and 29 are connected to the non-inverting input of amplifier 66. The amplifier 68 has the feedback resistor 101, the amplifier 66 has the feedback resistor 102. The output of the amplifier leads to connection point 45. Resistor 102 lies between connection point 44 and the inverting input of the Amplifier 66. The connection points 44 and 45 and the connection points 43 and 44 are connected to one another. Dar adjustable resistor 83 lies between the connection point 43 and the connection point 42. The connections 103, 104, 105 and 106 are connected to the respective connection points 42, 41, 40 and 39, so that the resistors 107 and / or 108 and / or 109 are short-circuited or opened.

The feedback resistance lies between points 38 and 47 101. The output of amplifier 68 leads to junction 47. The non-inverting input of amplifier 68 is at connection point 37, the inverting input at connection point 38. The connection points 38 and 39 are in turn connected to each other. The resistor 110 lies between, the connection point 45 and the connection point 46, the resistor 111 between the connection point 47 and the connection point 48. Between the connection points 46 and

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51 is resistor 112. Points 17 and 51 are connected to one another. Resistor 113 is located between connection point 48 and the ground connection. The inverting and non-inverting input of amplifier 69 is connected to connection point 46 and 48, respectively.

The resistor 114 is located between the output of the amplifier 69 and the base 115 of the transistor 116 with the collector 117 and the emitter. The collector 117 is connected to the connection point 50. Points 11 and 50 are related to each other. The transistor 118 'has the collector 119, the emitter 120 and the base 121. The emitter and the base 121 are both at the connection point 49. The collector 119 is at the connection point 50. Between the collector 120 and the connection point 17 there is the resistor 122, between the Connection points 49 and 51 of the resistor 49 '. The resistors 33 'and 34' have a resistance value which is usually substantially below that of the resistors 97 and 96, respectively.

Some values for the circuit components are given below:. 3.. '.

Resistances 10 ohms 14th 200 ohms 33 ' 200 " 34 ' 4 _f 700 " 49 ' 1,500 " 62 22 megaohms 64 20,000 ohms 65 7,500 ⁿ 73 7,500 " 74 10 " 78 3,200 ^H. 96 10,000 " 97 AO.ÖOO ^lf 98 - -

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1 01 1 02 1 07 1 08 1 09 1 10 1 11 1 12th 1 13th 1 14th 1 22nd Winding

E.A.Romo-2

75,000 ohms

75,000 "

5,000 "

5,000 "

5,000 "

75,000 "

75,000 "

75,000 "

75,000 "

220 "

22 ⁿ

76 100

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Claims (7)

DEUTSCHE ITT INDUSTRIES GESELLSCHAFT LIMITED LIABILITY E.A. Romo-2 Claims Bridge circuit with strain gauges, characterized by a Wheatstone bridge with corresponding connection points located at the four corners, a first reference branch between the second and third connection point, a second reference branch between the third and fourth connection point, one first active branch with variable resistance between one of the two pairs of connection points, one pair the fourth and first connection point and the other pair is the first and second connection point, a differential amplifier Dr. Rl / bk September 21, 1978 90981 4/0913 * "■ 2t * ■ E, A, Romo-2 ~ 2- 284H91 with inverting and non-inverting input and an output, a first device _f which supplies a set voltage to the non-inverting input of the differential amplifier, the output of the differential amplifier being connected to the second connection point and the fourth connection point being connected to the inverting input of the differential amplifier, a second Device which gives a resistance and is between the fourth connection point and ground, the current at the output of the differential amplifier being constant at constant temperature, an output device at the first and third connection point and a display device connected to the output device. 2. Bridge circuit according to claim 1, characterized in that the display device includes a differential pressure meter, 3. Bridge circuit according to claim 1, characterized in that a second active branch is present and the two active branches include a strain gauge that is a differential pressure meter is connected to the two active branches in order to influence them to the effect that the one under Compression stands while the other is stretched, and vice versa that the first active branch is between the, fourth and first corner point and the second active branch is between the first and second corner points. 4. Bridge circuit according to claim 1, characterized in that the first and second devices each have a first and second Resistance includes that the first resistor is between the non-inverting input of the differential amplifier and ground and the second resistor is between the fourth vertex and ground. 5. Bridge circuit according to claim 4, characterized in that a third and fourth resistor to the first and second, respectively Resistance is connected in series, namely to ground, and .9 09814/0913 E, A, Romo-2 -3 ^ 28AH91 that there is a feedback resistor in the output device and the ungrounded side of the third or fourth resistor, and that the four resistors each have the following values: R3 approximates R 4, R1 greater than R3, R2 greater than R4 , where R1 and R2 have the same resistance value . 6. Bridge circuit according to claim 1, characterized in that the first and second devices are temperature sensitive. 7. Bridge circuit according to claim 1, characterized in that the output device has a first, second and third Auxiliary differential amplifier, each of which includes one having a non-inverting input, an inverting input and an output, the non-inverting input of the first auxiliary differential amplifier is connected to the third connection point that a first resistor between the first connection point and the non-inverting input of the second auxiliary differential amplifier is that a Capacitor between the non-inverting inputs of the first and second auxiliary differential amplifier is that a second and third resistor from the outputs of the first and second auxiliary differential amplifiers, respectively, to the corresponding ones inverting inputs of the first and second auxiliary differential amplifier lie that an adjustable resistor between the output of the first auxiliary differential amplifier and the inverting The input of the second auxiliary differential amplifier is that a fourth resistor between the output of the first auxiliary differential amplifier and the inverting input of the third auxiliary differential amplifier is that a fifth resistor between the output of the second auxiliary differential amplifier and the non-inverting input of the third auxiliary differential amplifier is that a sixth resistor between the non-inverting Input of the third auxiliary differential amplifier and the circuit zero point is that two transistors with each a collector, an emitter, a base form a Darlington amplifier, that a seventh resistor from the output 9098U / 0913 E.A.Romo-2 - 4 - 284U91 of the third auxiliary differential amplifier to the base of the first The transistor leads that the emitter of the first transistor is connected to the base of the second transistor that the both collectors of the transistors are connected to each other, that an eighth and ninth resistance from the emitter of the second transistor lead to the circuit zero point that a tenth and eleventh resistor from the emitter of the first Transistor and the inverting input of the third auxiliary differential amplifier lead to the non-earthed side of the ninth resistor that a direct current source is available, and that a twelfth resistor from the collectors leads to circuit zero and that a voltmeter in parallel is connected to the twelfth resistor that indicates the differential pressure. 9098H / 0913